<!DOCTYPE html>
<html>
<head>
<title>RTCPeerConnection Insertable Streams - Video</title>
<script src="/resources/testharness.js"></script>
<script src="/resources/testharnessreport.js"></script>
<script src=/resources/testdriver.js></script>
<script src=/resources/testdriver-vendor.js></script>
<script src='../../mediacapture-streams/permission-helper.js'></script>
<script src="../../webrtc/RTCPeerConnection-helper.js"></script>
<script src="./RTCPeerConnection-insertable-streams.js"></script>
</head>
<body>
<script>
async function testVideoFlow(t, negotiationFunction, setConstructorParam, frameCallback = () => {}) {
  const caller = new RTCPeerConnection(setConstructorParam ? {encodedInsertableStreams:true} : {});
  t.add_cleanup(() => caller.close());
  const callee = new RTCPeerConnection(setConstructorParam ? {encodedInsertableStreams:true} : {});
  t.add_cleanup(() => callee.close());

  await setMediaPermission("granted", ["camera"]);
  const stream = await navigator.mediaDevices.getUserMedia({video:true});
  const videoTrack = stream.getVideoTracks()[0];
  t.add_cleanup(() => videoTrack.stop());

  const videoSender = caller.addTrack(videoTrack)
  const senderStreams = videoSender.createEncodedStreams();
  const senderReader = senderStreams.readable.getReader();
  const senderWriter = senderStreams.writable.getWriter();

  const frameInfos = [];
  const numFramesPassthrough = 5;
  const numFramesReplaceData = 5;
  const numFramesModifyData = 5;
  const numFramesToSend = numFramesPassthrough + numFramesReplaceData + numFramesModifyData;

  let streamsCreatedAtNegotiation;
  const ontrackPromise = new Promise(resolve => {
    callee.ontrack = t.step_func(() => {
      const videoReceiver = callee.getReceivers().find(r => r.track.kind === 'video');
      assert_not_equals(videoReceiver, undefined);

      let receiverReader;
      let receiverWriter;
      if (streamsCreatedAtNegotiation) {
        const videoStreams = streamsCreatedAtNegotiation.find(r => r.kind === 'video');
        assert_true(!!videoStreams);
        receiverReader = videoStreams.streams.readable.getReader();
        receiverWriter = videoStreams.streams.writable.getWriter();
      } else {
        const receiverStreams =
            videoReceiver.createEncodedStreams();
        receiverReader = receiverStreams.readable.getReader();
        receiverWriter = receiverStreams.writable.getWriter();
      }

      const maxFramesToReceive = numFramesToSend;
      let numVerifiedFrames = 0;
      for (let i = 0; i < maxFramesToReceive; i++) {
        receiverReader.read().then(t.step_func(result => {
          verifyNonstandardAdditionalDataIfPresent(result.value);
          if (frameInfos[numVerifiedFrames] &&
              areFrameInfosEqual(result.value, frameInfos[numVerifiedFrames])) {
            numVerifiedFrames++;
          } else {
            // Receiving unexpected frames is an indication that
            // frames are not passed correctly between sender and receiver.
            assert_unreached("Incorrect frame received");
          }

          if (numVerifiedFrames == numFramesToSend)
            resolve();
        }));
      }
    });
  });

  exchangeIceCandidates(caller, callee);
  await negotiationFunction(caller, callee, (streams) => {streamsCreatedAtNegotiation = streams;});

  // Pass frames as they come from the encoder.
  for (let i = 0; i < numFramesPassthrough; i++) {
    const result = await senderReader.read();
    const frame = result.value;
    const metadata = frame.getMetadata();
    assert_true(containsVideoMetadata(metadata));
    verifyNonstandardAdditionalDataIfPresent(frame);
    frameInfos.push({
      timestamp: frame.timestamp,
      type: frame.type,
      data: frame.data,
      metadata: metadata,
      getMetadata() { return this.metadata; }
    });
    frameCallback(frame);
    senderWriter.write(frame);
  }

  // Replace frame data with arbitrary buffers.
  for (let i = 0; i < numFramesReplaceData; i++) {
    const result = await senderReader.read();
    const metadata = result.value.getMetadata();
    assert_true(containsVideoMetadata(metadata));
    const buffer = new ArrayBuffer(100);
    const int8View = new Int8Array(buffer);
    int8View.fill(i);

    result.value.data = buffer;
    frameInfos.push({
      timestamp: result.value.timestamp,
      type: result.value.type,
      data: result.value.data,
      metadata: metadata,
      getMetadata() { return this.metadata; }
    });
    senderWriter.write(result.value);
  }

  // Modify frame data.
  for (let i = 0; i < numFramesReplaceData; i++) {
    const result = await senderReader.read();
    const metadata = result.value.getMetadata();
    assert_true(containsVideoMetadata(metadata));
    const int8View = new Int8Array(result.value.data);
    int8View.fill(i);

    frameInfos.push({
      timestamp: result.value.timestamp,
      type: result.value.type,
      data: result.value.data,
      metadata: metadata,
      getMetadata() { return this.metadata; }
    });
    senderWriter.write(result.value);
  }

  return ontrackPromise;
}

for (const setConstructorParam of [false, true]) {
  promise_test(async t => {
    return testVideoFlow(t, exchangeOfferAnswer, setConstructorParam);
  }, 'Frames flow correctly using insertable streams' + (setConstructorParam ? ' with param' : ''));

  promise_test(async t => {
    return testVideoFlow(t, exchangeOfferAnswerReverse, setConstructorParam);
  }, 'Frames flow correctly using insertable streams when receiver starts negotiation' + (setConstructorParam ? ' with param' : ''));
}

promise_test(async t => {
  const caller = new RTCPeerConnection();
  t.add_cleanup(() => caller.close());
  const stream = await navigator.mediaDevices.getUserMedia({video:true});
  const track = stream.getTracks()[0];
  t.add_cleanup(() => track.stop());
  const sender = caller.addTrack(track)
  sender.createEncodedStreams();
  assert_throws_dom("InvalidStateError", () => sender.createEncodedStreams());
}, 'Creating streams twice throws');

promise_test(async t => {
  let clonedFrames = [];
  function verifyFramesSerializeAndDeserialize(frame) {
    // Clone encoded frames using structedClone (ie serialize + deserialize) and
    // keep a reference.
    const clone = structuredClone(frame);
    clonedFrames.push(clone);
  };

  await testVideoFlow(t, exchangeOfferAnswer, /*setConstructorParam=*/false, verifyFramesSerializeAndDeserialize);

  // Ensure all of our cloned frames are still alive and well, despite the
  // originals having been sent through the PeerConnection.
  clonedFrames.forEach((clonedFrame) => {
    assert_not_equals(clonedFrame.data.size, 0);
    assert_not_equals(clonedFrame.type, "empty")
  });
}, 'Encoded frames serialize and deserialize into a deep clone');

</script>
</body>
</html>
